La_0.7Sr_0.3FeO_3?¦Á perovskite hollow fiber membranes for oxygen permeation and methane conversion

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• 作者：Xiaoyao Tan ; Lili Shi ; Guizeng Hao ; Bo Meng ; Shaomin Liu
• 关键词：Perovskite membrane ; Hollow fiber ; Oxygen permeation ; Methane conversion
• 刊名：Separation and Purification Technology
• 出版年：2012
• 出版时间：21 August, 2012
• 年：2012
• 卷：96
• 期：Complete
• 页码：89-97
• 全文大小：1752 K

文摘

Gas-tight La_0.7Sr_0.3FeO_3?¦Á (LSF) perovskite hollow fiber membranes were fabricated by the phase inversion/sintering technique using self-made ceramic powder. The permeation and reaction properties of the LSF membrane were investigated systematically by using He, CO₂, H₂ and CH₄ as the sweep or reactive gas, respectively. The experimental results indicate that the cobalt-free LSF hollow fiber membrane exhibits good stability when exposed in inert gases like He and weak acid gases like CO₂ but is not stable in a reducing environment. Continuous and severe segregation may occur when the LSF membrane is operated in H₂ and CH₄ atmosphere. The oxygen permeation rate is highly dependent on the formation rate of oxygen vacancies on the membrane sweeping side surface. Compared to He as the sweep gas, the use of CO₂ restrained the oxygen permeation due to the strong chemical adsorption on the membrane surface. However, the LSF membrane still suffers from the reaction with H₂ and CH₄ to form porous debris on the membrane surface, which may initially promote the oxygen flux but will finally result in membrane leaking or even breakage. When using H₂ or CH₄ as the sweep gas, the oxygen in the air feed can be depleted completely by permeating through the membrane. Although the LSF membrane exhibits a kind of catalytic activity to the partial oxidation of methane into syngas with a maximum CO yield of 1.2 % , additional catalyst is required to avoid the deep oxidation of the products so that high syngas yields can be achieved.